Purpose: The
purpose of this experiment is to study the tolerance level of ants to a
microwave. For the benefit of scientific knowledge, this experiment hopes
to delve into the question of how long an ant can survive in a microwave.

Hypothesis: Microwaves
cause objects to heat up my striking it's individual atoms causing them
to speed up. The faster atoms are moving, the more energy, and thus more
heat an object has. Because the processes by which an organism remains
alive are rather delicate, it is the hypothesis of this experiment that
small amounts of exposure will be enough to harm the ants. Therefore, it
is hypothesized that exposure of a mere 5 to 10 seconds will be enough
to eliminate the ants.

Equipment:
Needed for this experiment are ants, a styrofoam cup, a sandwich bag, microwave,
and pen and paper. Also something sweet will be required, used for this
experiment was fruit punch.

Procedure:
The first step is to collect 5 ants into a sandwich bag. Then microwave
them for 30 seconds, checking every 5 seconds to check on their condition.
If they are still alive, microwave for 10 second incraments. Next, for
part 2, pour the fruit punch into a styrofoam cup and place in the "ant
stream". After a good amount of ants are on the cup, transfer to the microwave
and apply for the amount of time it took to kill the ants in part 1. Observe
condition of ants and record results.

Results:Part
I: Determination of tolerance

Time

5 seconds

10 sec.

15 sec.

20 sec.

25 sec.

30 sec.

40 sec.

50 sec.

60 sec.

Condition of Ants

Ants are O.k

1 ant dead3 'sluggish'

2 ants dead2 sluggish

No change

No Change

2 ants dead1 close to death, (one antennae moving),2 Sluggish

3 ants dead2 near to death

No Change

5 ants dead

Part
II: Field confirmation of toleranceObservations: After
1 minute; all ants inside the cup were dead, however all ants outside of
the cup, "free roaming", remained alive after the initial minute. The cup
was removed and the microwave was turned on for another minute, which killed
all free roaming ants, except one. This ant was subsequently smashed to
ensure that mutant microwave resistant ants do not propogate.

Conclusion: It seems the hypothesis was disproved
and ants are able to tolerate a microwave for a relatively high amount
of time. One area of interest is whether an ant that is allowed to "free
roam" has a better chance of survival then an ant who stays in one spot.
Evidence suggest that they do, however, ants inside the cup probably were
killed quickly by the steam rising from the liquid in the cup. Although
this experiment provides plenty of information in this area of science,
more research into these issues should be performed.